Cross-resistance to fluoroquinolones in multiple-antibiotic-resistant (Mar) Escherichia coli selected by tetracycline or chloramphenicol: decreased drug accumulation associated with membrane changes in addition to OmpF reduction.

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Antimicrob Agents Chemother. 1989 August; 33(8): 1318-1325

Cross-resistance to fluoroquinolones in multiple-antibiotic-resistant (Mar) Escherichia coli selected by tetracycline or chloramphenicol: decreased drug accumulation associated with membrane changes in addition to OmpF reduction.

S P Cohen, L M McMurry, D C Hooper, J S Wolfson and S B Levy

Department of Molecular Biology and Microbiology, Tufts University School of Medicine, Boston, Massachusetts 02111.

ABSTRACT

Chromosomal multiple-antibiotic-resistant (Mar) mutants of Escherichiacoli, selected on agar containing low concentrations of tetracyclineor chloramphenicol, were 6- to 18-fold less susceptible to thefluoroquinolones than were their wild-type E. coli K-12 or E.coli C parental strains. The frequency of emergence of suchmutants was at least 1,000-fold higher than that of those selectedby the fluoroquinolone norfloxacin directly. When Mar mutants,but not wild-type cells, were plated on norfloxacin, mutantsresistant to high levels of norfloxacin (2 micrograms/ml) appearedat a relatively high (approximately 10(-7] frequency. In additionto decreased amounts of OmpF, Mar mutants had other outer membraneprotein changes and were four- to eightfold less susceptibleto fluoroquinolones than was an ompF::Tn5 mutant lacking onlyOmpF. Accumulation of [3H]norfloxacin was more than threefoldlower in the Mar mutants than in wild-type cells and twofoldlower than in the OmpF-deficient derivative. These differenceswere not attributable to a change in the endogenous active effluxsystem for norfloxacin in E. coli. Norfloxacin-induced inhibitionof DNA synthesis was threefold lower in intact cells of a Marmutant than in susceptible cells, but this difference was notseen in toluene-permeabilized cells. Insertion of Tn5 into marA(min 34.05 on the chromosome) led to a return of the wild-typepatterns of norfloxacin accumulation, fluoroquinolone and otherantimicrobial agent susceptibilities, and outer membrane proteinprofile, including partial restoration of OmpF. These findingstogether suggest that marA-dependent fluoroquinolone resistanceis linked to decreased cell permeability, only part of whichcan be accounted for by the reduction in OmpF. Once mutatedto marA, cells can achieve high levels of quinolone resistanceat a relatively high frequency.

Antimicrob Agents Chemother. 1989 August; 33(8): 1318-1325

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